W. Inauen scite author profile

The objective of this study was to determine whether superoxide mediates the leukocyte-endothelial cell interactions elicited by reperfusion (reoxygenation) of ischemic (hypoxic) tissues. Mesenteric and intestinal blood flows were reduced to 20% of control for 1 h, followed by 1 h of reperfusion. Sixty minutes after reperfusion, red blood cell velocity (Vr), leukocyte rolling velocity (Vw), and the number of adherent leukocytes were measured in mesenteric venules. Then, either human superoxide dismutase (hSOD), hydrogen peroxide-inactivated hSOD, or MoAb IB4 (a monoclonal antibody against the leukocyte adhesion molecule CD18) was injected intravenously. Ten minutes later, repeat measurements were obtained and compared with pretreatment values. hSOD attenuated reperfusion-induced neutrophil adherence and increased Vw/Vr, an index of the fracture stress between leukocytes and endothelium. Peroxide-inactivated hSOD did not alter any parameter. MoAb IB4 attenuated reperfusion-induced adherence but did not alter Vw/Vr. In a correlate study, cultured bovine microvascular endothelium was exposed to 30 min of anoxia, followed by 60 min of reoxygenation. Cat neutrophils were added during reoxygenation. Reoxygenation-induced leukocyte adherence was attenuated by either hSOD or MoAb IB4 but not by inactivated hSOD. Adherence of phorbol 12-myristate 13-acetate-activated cat neutrophils to plastic was unaffected by hSOD or inactive hSOD, yet MoAb IB4 virtually abolished the response. These results indicate that superoxide mediates reperfusion-induced leukocyte adherence and that endothelial cells are required for this superoxide-mediated adherence.

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Xanthine oxidase-induced injury to endothelium: role of intracellular iron and hydroxyl radical

Kvietys

Inauen

Bacon

et al. 1989

American Journal of Physiology-Heart and Circulatory Physiology

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The major objective of the present study was to characterize the sequence of events leading to endothelial cytotoxicity induced by oxidants generated extracellularly by xanthine oxidase. 51Cr-labeled monolayers of calf pulmonary artery endothelial cells were exposed to a reaction mixture containing hypoxanthine, xanthine oxidase, and chelated iron (HX/XO) and endothelial cell injury was quantitated as 51Cr release into the media. Catalase, but not mannitol or superoxide dismutase, prevented endothelial cell injury induced by HX/XO, indicating that H2O2 was the mediator of the cytotoxicity. Pretreatment of the cells with free deferoxamine (an iron chelator), but not with deferoxamine bound to dextran (mol wt 40,000), prevented endothelial cell injury induced by HX/XO or H2O2. Of the membrane-permeant hydroxyl radical scavengers dimethylsulfoxide and dimethylthiourea, only dimethylthiourea prevented 1) HX/XO or H2O2-induced endothelial cytotoxicity and 2) deoxyribose degradation by hydroxyl radicals (.OH) generated by an iron-catalyzed reaction on the sugar (site-specific reaction). The concentration of ferritin required to produce significant quantities of .OH was much greater than that present in endothelial cells, and ferritin-catalyzed .OH formation was not affected by deferoxamine, indicating that ferritin-bound iron is most likely not the physiologically active catalyst. We conclude that extracellularly generated H2O2 can enter the cell and interact with nonferritin iron to produce the cytotoxic .OH via a site-specific reaction.

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W. Inauen

Propofol sedation during endoscopic procedures: how much staff and monitoring are necessary?

Superoxide mediates reperfusion-induced leukocyte-endothelial cell interactions

Xanthine oxidase-induced injury to endothelium: role of intracellular iron and hydroxyl radical

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